Counting-machine.



A. VON BARTH.

COUNTING MACHINE.

APPLIOATIOH FILED me. 12, 1909.

Patented July 22, 1913.

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COUNTING MACHINE.

APPLIOATION FILED AUG. 12, 1909.

Patented July 22, 1913.

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APPLICATION FILED AUG. 12, 1909.

Patented July 22, 1913.

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A. VON EARTH.

COUNTING MACHINE.

APPLICATION FILED 1116.12, 1909.

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COUNTING MACHINE.

APPLIOATION FILED AUG.12, 1909.

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COUNTING MACHINE.

APPLICATION FILED AUG. 12, 1909.

Patented July 22, 1913.

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COUNTING MACHINE.

APPLIOHATION FILED AUG,12, 1909.

Patented July 22, 1913.

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$513M euro M121 UNITED STATES PATENT cur os.

ARTHUR VON BARTH, OF NEW YORK, N. Y.

COUNTING-MACHINE.

' Specification of Letters Patent. Application filed August 12, 1909.

Patented July 22, 1913. ScriaI'No. 512,606.

. kinds of bills or for other paper orsimilar to be comprised in each bunch.

articles which need to be counted.

The invention also relates to several differ 'ent portions of such machine and improvements therein, namely, that portion of the mechanism which successively takes the bills from-a column and transfers them to the receptacle or place where the counted bills are received or bunched;- also to devices or mechanism for receiving the successive. bills as they are transferred and for bunching and binding them and stamping the successive bunches with any desired marking;

also 'to feeding mechanism for the table which supports the unwanted objects; and also toimprovements in the regulating de-- vices for determining the number of objects I will first describe one form of machine in which my invention may be embodied, and will then set forth the novel features thereof in the claims.-

In the accompanying nine sheets of drawings which form a part of this specification,

Figure l is a front View .of one form of machine embodylng my improvementsytlns being a double machine. The figure indicates the front plate or face plate as broken away in order to better disclose the interior mechanism, the broken away portion being that outside of the broken line a. Fig. 2 is a 1eft-hand end view of the machine shown infFig. l, but with the end plate B of Fig. 1 entirely removed in order to disclose the interior of the main suction chamber.- These two figures do not show the driving motor, but show the chain 9 which would extend to a motor but is broken off at the edge of the drawings. Fig. 3 isa front view, Fig. 4 is a side view partly in section, and Fig. 5 is a top view, of the compartment or box which holds the uncountcd bills, together with the auxiliary suction chambers on each s de thereof. Fig. 3 is partly in section, taken on the'inclincd planes represented by.the

lines 92 -00 and y --g of Fig. 4:. Fig. 4 is partly in section taken on inclined plane a1 a:* of Fig. 3. Fig. 6 is a vertical central section through the bill-transferring cylinder D, but with the latter removed from the position of Fig. 1 to its extreme right-hand position, and thefigure' includes the cut-off valve, together with a portion of the suction chamber B and the face plate A. Fig. 7 is a front view of a detail, namely, the slide which slides with the cylinders and which maintains the main suction chamber closed; the cylinders and their valves being shown in section. Fig. 7 is a detail side view of certain of the parts seen in Fig. 7. Figs. 8 and 9 are diagrams illustrating the operation of'the cylinders and the mode of passing counted bills into the bill-gripping mechanism. Fig.

10 is a front view of the bill-gripping, bunching,wrapp1ng and stamping mechanism at the right-hand end. Fig. 211- is a vertical eleva- 'tion of'the same looking'from the right-hand end. Fig. 12 is a front view in detail of the portion of the mechanism which registers theinumber of'bills-tobe-comprised in each package and controls the bunching, wrape ping and stamping mechanism. Fig. 12* .represents a detail view in order to show more clearly the parts 0 0 of Fig. 12.

Fig. 13 shows "the-same parts butlooking from the right-hand'end. .Fig. liis a view struction and arrangement of-the scissors.

which clips ofl the paper strip to 'formbands ofthe same looking from zthe left-hand end "of Fig. 13, showing the scale and pointer-by which the operation'oftheregisteringmechfor binding the bills; and Fig. 16 is a side view. of the same looking from the lower side of :Fig. 15. Figs. 17 to QO-relate to the automatic mechanism'which raises the table carrying the column of uncounted bills, Fig. 17 beinga top'view of the parts beneaththe table, Fig. 118 an elevation partly in section, and Figs. 19 and 20 illustrating the jaws.

Similar letters of reference designate correspondingparts in the several-figures.

A represents a horizontaltable which has table legs a that may extend to-the floorivi-ng support to the entire apparatus. he motor for driving the apparatusma be located on a shelf supported by said egs be neath the table, but is not shown as its details form no partofthis invention. The

suction for the suction chamber may be produced by said motor or by any other convenient means not shown.

Most of the mechanism hereinafter to be described is located above the table A. In the first place there is aframework of stationary plates and parts which form supports for the moving portions of the mechanism. Of said framework it is sufficient to 'refer to the front or face plate A, best seen in Fig. '2, but also seen partially within the broken line 2, F ig; 1. Practically all of the mechanism hereinafter to be described is behind said front plate A.

At the rear and above the table A is a;

main suction chamber whose Walls also constitute stationary portions which give support to the moving parts of the mechanism. The space within the main suction chamber is indicated by the letter 18, Figs. 2', 6 and 7. Said main suction chamber has a vertical rear wall B, Figs. 2 and 6, a front wall B Figs. '1, 2, 6 and 'I, and left and right-hand end walls -B, and B Figs. 1

and- 7. Air is drawn out of the main suction chamber through an opening .in the table A and the pipe B extending below the table to any convenient source of suction. The top of the main suction chamher is closed as shown at B in Fig.1

2, in which .fignre the lefthand end plate B has, as stated, been removedto more clearly show the interior. This suction chambenit willbe seen from the above description, is in the form of a square box set on top of the table A at the rear thereof. In front of the suction chamber are certain mechanisms which will be described, they being located between said chamber and the front wall A. Among these'is included a suction device in the form of a cylinder for successively engaging a series of bills or other objects to be counted and transferring them to where the counted objects are gathered. ll will first, however, describe the manner in which the uncounted bills are sus tained in 'position to cooperate with the transferring mechanism.-

The bills are supported upon a feed table C,"'Figs. 1 and 18. The bills themselves'are clearly seen in Fig. 1 at a, they beinglaid horizontally one upon another in a uniform column extending from the table 0 up to the top, from which point the bills are successively removed, as will hereinafter be explained. The bills are laid with their long side extending from front to rear so that the ends of the bills are seen in Fig. 1, Extending downwardly from the feed table 0 is a.

threadshank- C which supports the feed I table and, as willhereinafter appear, serves to gr'adually'lift the same as the operation of the machine progresses, so that the re- 'moval of bills at the top of the column is compensated for by the gradual elevation of the feed table. Before describing the mechanism for operating the feed table, we Wlll pass to the mechanism for transferring the, bills successively from the top of the column to the place where the counted bills are received, bunched, bound and stamped. The means for taking the successive bills from the to ofthe column 0 and removing them, consists of a suction device whose which suction device is so mounted as to be capable of shifting to and fro preferably in horizontal direction, this shifting movement bringing it from a position above the column of bills to a position removed therefrom; and each to'and fro movement is in: tended. to cause the removal and transference of the topmost bill. As shown the suction .device herein takes the form of a cylinder which is capable not only of bodily shifting 3 from its posit-ion above the bills to a position to one side, but is also capable of rotating simultaneously with the shifting movement or with a portion of the shifting movement.

l) represents one of the suction cylinders just referred to. l have shown the second of such cylinders E, and the employment of two rather than one is of considerable importance and economy in the operation of my machine for the reason that while. one cylinder is shifting from the column of bills and back, the other cylinder is made to shiftv towardthe column of bills and away, thus doubling the capacity of the machine.

The cylinders D, E, are best seen in Figs. 1.0g 1, 2, 6 and 7. lit will be understood that each cylinder is constantly in connection with the interior of the main suction chamber B so that a suction is maintained at all times within the cylinders. As the cylinders must also slide or shift to and fro, a special contrivance is necessitated and this is shown in Figs. 6 and 7 in the form of a slide r which slides or shifts horizontally to and fro with the suction cylinders. The main suction chamber-is cut away as indicatedb'y the dotted line 6, Figs. 1 and 7, on its front side, this opening being of such shape as to permit the two cylinders D and E to have continual connection with' the interior of 1 the suction-chamber, and the slide =F being of such shape and arrangement as "to continually close said opening except at the [points where the suction cylinders connect.

Any convenient form of guides for the slide 1 bar F may be employed, such for example as that shown at f Fig. 6,-and these guides will prevent the leakage of air. should be stated, however, that there is no great tendency for leakage since on account of the interior suction, there is an outward atmospheric pressure holding the slide against the wallof the main suction, chamber.

The suction cylinders are best seen Fig.

nature will be more specifically explained, 75

6. The cylinder E, for example, extends moved to and fro, the said cylinders are provided with pinions at their ends. For example the cylinder E, 6, has a pinion e at'its forward end and a pinion e at its rear end, these pinions engaging upon fixed racks e and 6 respectively, secured to the front plate A of the machine and the rear wall 13 of the main. suction chamber. The result of this construction is that not only are the cylindersproperly guided and maintained in horizontal and parallel position while being shifted to and fro, but they are also caused to rotate by reason of the action between the pinions and racks.

The portion of each cylinder which is within themain suction chamber is of skeleton construction as seen at E, Figs. 2 and 6, so as to permit a free flow of air. The portion of the cylinder which is outside of orm front of the main suction chamber is of a peculiar construction which will be explained more fullyv hereinafter.

It should be here stated that in the rear wall B of the main suction chamber and also in the face plate A. of the machine,

horizontal slots are formed slightly higher than the racks e e and in each of these slots a pair of slides plays to and fro. The front slides are designated by e", and the rear slides. by 6 and each slide, as

best seen in Fig. 1, and 6, contains a I will now describe .the means whereby. the to and fro movements of the slide F and the cylinders D, E, are obtained; Rigid with or fastened to the slide F is an extension F which is preferably located in a central position and extends downwardly to where at its lower end it is provided with a-toe f, whose purpose will be made to appear hereinafter. The extension F is vertically slotted at f and in ;said slot there works upwardly and downwardly a slide block f. This slide block is intended to be actuated. by a rotating crank f which is pivoted to the block and which at its other end is secured. to'a shaft Gr driven by a motor, On the rotation of the shaft G the same acting through the extension F, causes said extension and the slide F to move horizontally to and fro to an extent equal to twice the length of crankf The shaft G may be characterized as the main shaft of the machine, since most of the other motions are obtained directly or indirectly from it. Said shaft G is mounted in convenient bearings, which for convenience are made to pass through the walls of the main suction chamber, as seen in Fig. 6,. and at the rear where emerging, a sprocket wheel 9 is shown engaged by thesprocket chain 9 which extends downwardly to the driving motor already referred to. The sprocket chain ,g is also seen-in Fig. 1. The motor, however, is for simplicity omitted.

-I will now describe the construction of the forward end o-f one of the suction cylin ders. and the mode of operation by which it serves to remove the topmost of the uncounted bills'and transfer it to where the bills are received, bound and stamped.

Fig. 1 shows the suction cylinder D as located directly above the topmost uncounted bill. In said position the cylinder has a lengthwise slot at its lower side through which slot the suction may act to cause the,

topmost bill to adhere pneumatically to the cylinder and permit. its bodily removal from the column of uncounted bills. In Fig. 7 the cylinder D is shown in this same posltion and the slot referred to is indicated at (Z at the lower side of the cylinder. .As already pointed out the cylinder D when it is shifted to the right 'awayfrom thecolumn of bllls is also rotated and a consideration of the arrangement of rack and pinion in Fig. 1 will indicate that this rotation is right-handed or in the direction of the hands of a watch. The actual motion of the cylinder is a sort of rolling motion and thelower portion thereof containing the slot d with the topmost bill-adhering thereto, moves first vertically, then curving to the right until the cylinder has .made substantially threefourths of a turn, after which the bill is intended to be released and taken in charge by the bunching, binding and stamping mechanisms. In order to effect the opening and closingof the slot J at the proper'tinics,

' I have provided an interior cylindrical device whose operation may be comparedto that of a valve. This valve is indicated by the letters H, Figs. 6 and 7,and is seen to be in'its general sh ape that of a cylinderclosely concentric within the suction cylinders I),

-E. A large portion of the valve H is cut away so as to leave the slot d open during substantially three-fourths ofa revolution l 5 slide 6 This contrivance prevents any rotation of the valve device H so that as the Bolted to its forward end wallit is an axle or pin k whichpasses completely through the axle or sleeve .9 that is attached to and turns with the-suction cylinder. At its outward .or forward end the pin 11. is provided with a laterally extending arm it", said arm being rig idly-secured to the pin 7& by having a nut hl 'gjat the end of pin b said nut binding thearm against a shoulder formed on the pln for that-purpose. The outward extremityof the arm h is held against rotation by "a'small screw 71. which is passed through said arm and screwed into the middle of the suction cylinders shift to and fro saidcylin-' ders will rotate, but the valve device will simply move horizontally without rotation. Inspection now of Fig. 7 will disclose that I the slot d must be open after it has picked up the topmost bill and until it hasrotated in a right-handed direction for substantially three-fourths of the circumference of the cylinder. At this point the wall of the valve device comes into operation closing the slot of and shutting oif the suction, thusnpermitting the bill to be released and disposed of as will hereinafter appear. The left-hand cylinder E in Fig. 7 is shown as rotated until its slot (Z has been closed as described.

It will be seen in Fig. 1 that the rack -e is cut oil at the right-hand end at a point which causes the disengagement of the pinion, 6 and the rack before reaching the end of the outward stroke. It is calculated that at three-fourths of a revolution the pinion and rack become disengaged. The remainder of the outward movement of the pinion e andthe slide e and cylinder is accomplished without further revolution. This action is very desirable in connection with the form of vbunching, binding and stamping mechanism employed herein. In order .to prevent the pinion and cylinder from continuing their rotation by force of inertia, I have provided a pair of stop pins, namely-a stop pin e which is fast to and rotates with the axle or sleeve 6 and the pin c which does not rotate but is secured.

upon the slide a in the position shown. After three-fourths of a revolution the pin 6 strikesthepin 6 and insures that the remainder of the outward movement is without further revolution. In Fig. ,1 the lefthand suction cylinder E is shown in outward position with the pin e? in contact with pin 6 Figs. 8 and 9 diagrammatically show the insert bills.

operation just explained, In Fig. 8 the cylinder E is shown as having moved outwardly or to theleft for three-fourths of a revolution, and at this point the valve H has just accomplished the closing of the slot (1 so that the bill a is released while in vertical position. Fig. 9 shows the extreme outward position, the cylinder E having moved continually from the position of Fig.

8 to that of Fig. 9 in a horizontal direction without rotation and in such manner as to push the released bill 0 directly into the flexible jawsof the receiving device. This arrangement insures that the bill is always shoved straight into position horizontally,

also that whenever a stiff bill is encountered which tends to flatten out'as seen in Fig. 8, it will not be brought into the proximity of the receivingjaws while being rotated, and in this way the device precludes the possibility of the bill striking one of the jaws dur ng rotation and thus displacing-it before enterin I will now or compartment which holds the columnof uncounted bills. This is shown in Figs. 3,

.4 and 5, with the feed table omitted. Beferring to Figs, 1 and 2, it should havebeen stated that the 'face plate A at-the front of the .machine covers substantially all of the mechanism but is cut away centrally so as to expose the space through which the column ofuncounted bills ascends, as well as being .cut away for the admission of the slide a as already ex lained. The portion which is cut away in rout of the column of bills permits the operator'tp The box or chamber contain.- ing the bills consists of the table A for its bottom, two vertical walls J, J at the sides of the column of. bills, and a rear wall J there being of course no walls at the top or front. On either side of the compartment is an auxiliary suction chamber, one marked J and the other J which are substantially similar. The suction chamber 3 connects with the main suction chamber B by means of a passage J 5 extending through the front wall B of the main suction chamber, and

the other auxiliary suction chamber'J is similarlyjconnected. The urpose of the two auxiliary suction chain ers is to produce at their upper end adjacent to the side edges of the topmost bills, a flow of air whosetendency is to create a horizontal pull upon the upper two or three bills, thus tending to maintain them in their proper positionuntil the topmost one. is engaged and removed by the Operation of the suction chambers already described. having the upper end of each auxiliary suc tion chamber open for the entire length of the bill, I have constructed it to be open' at separated points, for example at four points as seen. in Figs. 4; and 5. This is accom- 1 the space between the jaws. escribe the details of the-box Instead of of the actual suction openings presented to the uppermost bills, and j represents one of the air spaces between the several suction openings. It will beunderstood that the continuous inward air flow is going on to a limited extent at four points on either side of the column of bills, and these eight,

points of air flow have a tendency already explained of creating a horizontal pull on the several uppermost bills. It is highly desirable, however, that a complete vacuum or a very high vacuum be avoided in the space between any two of the upper bills, which might result from the operation of the suction. To prevent this l have provided the alternate air spaces 7' as already explained. By this arrangement the air flow will be inward or toward the bills through the spaces 7' to a small extent, and outward through the suction openings j, creating a circulation and maintaining the bills sufficiently free from a high vacuum to prevent their accidental adherence while the topmost bill is being removed and transferred to the bunching, binding and stamping mechanism.

In order to assist in the operation of the above described devices, I have provided an auxiliary device in the nature of a series of bristles 71: whose action is to insure the separation of the topmost bill from the next one beneath it. These bristles extend the whole length of the bill and are secured in place by a thin strip of metal or other material, is, which in turn is secured in place by the rivet or screw k Whenever the suction cylinders are operating to lift the topmost bill, these fine springy bristles I: immediately insert themselves beneath the edge of the topmost bill, thus engaging and holding down against accidental removal the next succeeding bill.

I will now describe the operation of the feed table C, see Figs. 1, 2 and 17 to 20. A sprocket chain Z, Figs. 1 and 2, is driven by the samelmotor as that which drives, the sprocket 9 already described. The chain Z passes around the sprocket wheel Z and thus drives a central worm shaft Z upon which is a worm Z engaging a worm wheel Z which turns about a vertical axis. The vertical screw shaft C already referred to and at the t'op'of which is supported the feed table 0, forms the center about which the worm wheel Z turns, and the worm wheel contains movable devices or jaws which are capable of engaging the threads of thescrew shaft C. Two such jaws are shown, and they are marked L and are shown in detail separately in Figs. 19 and 20. Each jaw has projections or teeth Z capable of engaging the threads in the screw shaft C. It also has upper and lower slide portions Z and 17 which engage with the upper and lower surfaces of the wheel I, the wheel being provided with a hole at Z in which the jaw slides radially inward and outward. Each jaw also has an upward projection Z with a horizontal extension Z for a purpose that will hereinafter appear. A spring Z is employed, ,it being located in the aperture Z of the wheel Z this spring having a tendency to push the jaw L radially inward and maintain it in engagement with the vertical screw shaft C. As the worm wheel Z" has to bear the weight of the feed table and the bills thereon, said worm wheel is provided with ball bearings at Z to insure its easy running. It will be understood that the feed table C does not rotate and neither does the screw shaft C which supports it. screw shaft is of a peculiar construction, having very important results in the opera tion of the'feed table. The outer diameter of the screw shaft, as determined by the outer points 0 of the threads, is uniform from top to bottom, whereas the diameter of the inner core determined by the base 0 of the indentations between the threads is of conical form, tapering from its narrowest diameter at the top to its broadest diameter at the bottom. The thread, moreover, is of apeculiar form, and instead of being square, each thread is beveled or inclined at its upper side as indicated at 0 Fig. As seen in Fig. 19, the teeth Z of each aw have a corresponding shape to that of the thread of the shaft C.

When the worm wheel is turned with a right hand elevation as in Fig. 17, the jaws L acting as a nut, cause the screw shaft to gradually rise, lifting the feed table with it,

Said

thus compensating for the bills or objects which are removed from the feed table. It will be seen that as the table rises higher and higher, the tapered form of the screw core causes the jaws L to gradually move farther and farther apart until when the table has reached the extreme upper end of its movement the saidjaws will practically disengage from the threads of thescrew shaft. The purpose of the pro'ections 1" will now be made apparent. hey move gradually farther apart as the table rises. When the table has reached its uppermost position,,the parts 1 are so far apart as to: permit the disk I to enter between them and hold them in their separated pos tion,

thus holding the aws in their outward position disengaged from the threads of the shaft C A curved plate spring Z eontinually pressesup on the disk Z and thus causes it to take its position between the 35 i I shown in Fig. 1 a counterM of any ordihave reached this stage the screw shaft C and feed table C drop to their original or lowest position. In falling the table C at its under side comes in contact with and operates four small rods .1 shown dotted in Fig. 17 and best seen in Fig. 18. Theserods at their lower ends connect with the disk Z already mentioned, and when depressed the rods cause the disk to descend. In this way the disk is released from between the projectionsl and in turn said projections and the two jaws L are permitted to return to their original or inward mitted by the before-described form of .2

screw threads of the shaft C, together with the presence ofthe springs Z Said springs permit the jaws tomove outwardly and the action of raising the table C is one of wedging the jaws apart, owing to theinclined surfaces 0 of the screwf threads. Immediately-the operator stops raisingthe table the jaws snap back into place and the ma chine is ready for operation. v

- A valuable auxiliary to a machine of the kind being described is a counter, and I have nary construction, it being of the kind which registers one number when its projecting lever m is depressed. In order to cause the depression of lever m at every operation of the machine, 'I have provided a-bell crank lever having arms m and m", the long arm m of which lever is connected by the link 01!. with the lever m. A fixed projection M mounted on the slide-F moves to and fro with theyslide, and at the left-hand of its movement strikes against the arm m of the i bell crank'lever, thereby acting through the link wa to cause-the depression of lever on so as to re ister one number. In the form of machine t at I .have shown the bill is re moved from the column not only with the left-hand movementof the slide'F, but also with the right-hand movement, and it is, therefore, desirable that the counter shall operate also upon such right-hand move ment. 1 To thisend I have provided a sec- 0nd bell crank leverwith long arm m, and

short arm the latter adapted to be struck by the projection M at the extreme of its rightshand movement. This throws the bell .cranklever mg, m". The arm m has at its end a lateral projection m which bears on top. of the arm m. of thelfirst-named bell .155 'erankilever. In waythe second bell crank lever causes the depression of the arm m, and it in-v turn acting through the link m depresses the lever mand causes a single number to be registered on the counter.

I will now describe the portion of the machine which receives the successive bills as they are removed from the column of uncounted bills, and which bunches, .binds and stamps them. This mechanism is best shown in. Figs. 1, 10 and 11, and the diagrams .in Figs. 8 and 9 illustrate, as previously explained, the manner in which each successive bill is introduced into the bill receiving aws.

Referring to Fig. 10, N represents the central axle or shaft of the mechanism to be described, and it turns in bearings which may be for convenience arranged as follows. The front bearing will be the face plate A of the machine, the axle N extend ing rearwardly therefrom toward the main suction chamber. Since, however, the axle N is of the same level as shown in Fig. 1, -with the axes of-the suction cylinders, the rear end of said axle must be'so journaled as not to interfere with the horizontal to and fro movements of the slide F. To this end a special bearing plate N is employed whlch extends upwardly and downwardly in front of the patli of the slide F, and the plate N is held'away from the front side of the main suction chamber by blocks whose positionis indicated by the dotted "line N It will be understood that a similar arrangement \of axle N and separating parts are provided at the other end "of the machine.

Upqn axle N is .mounted a sprocket Wheel N which as shown in Fig. 1, is engaged by a sprocket chain N that passes downwardly, engaging a sprocket wheel on the auxiliary shaft N said shaft having a second sprocket wheel which is engaged by the chain N for driving it, the chain N passing to the regulating or controlling" mechanism shown at the lower left-hand corner of Fig. 1, which will be separatel described hereinafter. It is sufficient at t is time to state that this regulating mechanism-normally does not actuate the axle N, but only when a predetermined number of bills'have been transferred and deposited in the bunching, binding. and stamping mechanism.

Three separate parts are keyed upon the shaft N so as to rotate with it. The first of these parts is a central bar 0, it being midway between the other two parts, namely, two squared. iron castings P, P, seen only in dotted linesin Figs. 10 and 11. v The squared iron. castings P, P, are merel for the purpose 'of supporting the jaw? ames, and as they are substantially alike, we will confine the description to the left-hand one, namely P, Fig. 11. The jaw frame which is mounted upon the casting P is of a four-arm arrangement and for conveniencethe four arms are produced by means of four pieces of sheet metal, one of which is marked 79 in Fig. 10, this showing the construction and arrangement of all four of them. The result of this construction is the four radial arms 79, p 79 p; 7) and 72 preferably being in alinement with, and at right angles to, the line of p and 7)", although this is not essential.

In the space between the jaw arms 79 and 7)" is certain mechanism which will now be described, and it is in this jaw space that-the bills are intended to be received preparatory to their bunching, binding and stamping. In like manner the space between the arms 7) and p is adapted to receive bills when the axle N has been rotated a half revolution. In other words, either one or the other of the two jaw spaces will be presented toward the pneumatic cylinders that deliver the bills, while the other will be at the dia metrically opposite position.

Confining the description now to the lefthand jaw space in Fig. 10, which is the one on the side toward the pneumatic cylinder, the said space is partly inclosed by a pair of flexible jaws Q, Q, which are substan tially alike, one at the upper side and mounted upon the extremity of the jaw arm [2 the other at the lower side and mounted upon the extremity of the jaw arm 2 It will be understood, as seen in Fig. 11, that these aws Q are of narrow width and that in a single machine but four separate parts of them are employed surrounding each jaw space. As all are substantially the same, it is sufiicient to describe a single one of the resilient jaws. In order to make each of the jaws Q resilient and give it capability of swinging outward, it is provided with a coil spring 9, the tendency of which is to bring the jaw back when outwardly displaced, into its normal position as shown in Fig. 10.

Referring again to Fig. 10, the jaw space at the left, as has been explained, is partly inclosed above and below by the resilient jaws Q, Q. Atits inside or rear the said jaw space is provided with a back plate R which is supported, and is held normally in the indicated position, by means of the coil spring 7* which is of light tension, said coil spring at its inner end being attached as by soldering to one of the plates 79. As seen in Fig. 11, there are four of these resilient back plates-R, one corresponding to each of the pairs of jaws Q, Q.

WVe are now prepared to return to the diagrams Figs. 8 and 9 and better understand the operation of the mechanism shown therein. The pneumatic cylinder E when it hasmoved outwardly sufficiently to turn three-fourths of a revolution, has reached the position shown in Fig. 8, at'which point the revolution stops and the bill 0 'instan:

taneously stands either in the position indicated in' Fig. 8 or else somewhat wrapped around the exterior of the pneumatic cylinder. It will be understood that the cylinder does not stop its outward movement when the revolution stops, but on the contrary continues moving outward until it reaches the position shown in Fig. 9. This movement from the position of Fig. 8 to that of' Fig. 9 is a sort of thrust and serves to shove the bill 0 into the jaw space and close between the jaws Q, Q and the back plate It. All of the springs being of light tension the bill is lightly held in this position, and there being no suction operating at this point, the suction cylinder is enabled to withdraw from the position of Fig. 9 to that of F ig. 8 and continue inward without disturbing the position of the bill that has just been deposited in the j aw space. This operation of depositing or thrusting successive bills into the jaw space is continued, the bunch of bills therein increasing in thickness as shown at 0 Fig. 10, until finally when the desired number, for example one hundred bills, have been deposited in the'jaw space, the regulating mechanism hereinafter to be de scribed will effect a half rotation of axle N, thus interchanging the position of the two jaw spaces and performing certain other functions which will be explained.

The distance between the extremities of a pair of jaws Q, Q, is made somewhat less than the outer diameter of the suction cylinder so that, as is clear from Figs. 8 and 9, said jaws Q, Q, will come in contact with the circumference of the cylinder during the outward movement of the latter, and the cylinder will to some extent force the'jaws apart, the resilience of the latter permitting such action. The result of this action will be first that if the bill stands vertically as seen in Fig. 8, it will be pressed by the extremities of the aws Q, Q, until it partially wraps itself around the circumference of the cylinder. As the cylinder continues its outward movement, the aws will be slightly spread apart and will pass farther around the circumference of the cylinder, as seen in Fig. 9. Indeed, the parts are so made that the jaws will pass sufiiciently around the circumference of the cylinder as to pass by theside-edgesof the bill and thereby the bill is broughtwholly within the jaw space. Were the bill not brought wholly within the jaw space, it would not maintain its position, but as seen in Fig. 10,- the outermost of the bills 0 is held in a concave position with three bearing points, and .the light tension springs serve to hold the same sufficiently secure for the purpose of the machine.

I will now describe the mechanism which serves to bind the predetermined number of bills into a bundle and place a, wrapper around .them, which wrapper is stamped 'the description of the regulating mechanism.

The vertical shaft S is for the left-hand end of the machine and a similar shaft S is provided at the right-hand end, the two shafts being connected together by sprocket wheels S and a chain S so that the two vertical shafts rotate in unison. They will be driven-with-practical continuity so that the band feeding mechanism operates continuously.

At the upper end of the vertical shaft S (or S) is a bevel gear wheel 6* engaging a similar wheel S upon a horizontal shaft 8, and secured on the latter shaft is the main feed roll 8, shown in dotted lines Figs. 1 and 2, which serves to feed the strip of paper from a large supply reel S, which reel is pivoted at 8 upon a fixed bracket s .v

8 represents the strip of paper which is being fed from the supply reel. It passes between the main feed roll 8 already referred to and an idler roll 8 which maintains pressure upon the strip. The idler roll 8 is upon a pairof swinging arms a pivoted at their lower ends so that the rolls 8 and s can be separated when desired and when in contact the roll 3 is held in place by gravity. The strip of paper after passing downward between the rolls 8, 8 passes through a guide, then through a pair of scissors, andthen downward, as shown at s,

Fig.- 10, passing immediatelyflbehind the bunch of billsin the receiving jaws to a point ate considerably below the jaw space.

It has been stated that the'feed roll 8 is continuously driven and, therefore, the strip 8. of paper is continuously passing downward. The point a" merely represents its extreme downward position, which will-be at a stagewhen the full number of bills have been received in the receiving jaws and the regulating mechanism is about to rotate the axle N. When this occurs several things happen. i In the first place the scissors, which will be described, snip' off a portion of the paper strip considerably above 7 the receiving jaws and the said severed portion is then quickly wrapped around the bunch of bills, one of the ends of the'severed 'paperstrip having glue applied to it during the operation so that the'ba'nd becomes glued and permanently fastened around the bundie, of bills, following'which the rotation of axle N carries said bundle'ben'eath the printing-roll, the receiving jaws finally taking a machine is seen in Fig. 1. The underneathscissor part at is stationary, while the upper portion t swings horizontally about the pivot t and extends at its rear end to Where at t it is provided with a slot engaging with a pin t mounted upon an arm t which is pivoted to a vertical shaft t. This shaft is seen in Fig. l and Fig. 16, it passing down- .wardly fro-m the scissors through a bearing formed in a lug t At its lower end the vertical shaft t is provided with a second arm 2?, the extremity of which has a downward projection i for cooperation with a cam 25 formed near the circumference'of awheel i fast on the axle N. It should be explained that for convenience the vertical dimensions have been shortened in Fig. 16 so as to reduce the height, and especially the lug t is of very much less 'verticaldimension than as shown in Fig. 1.

As soon as the axle N commences to rotate after a hundred or other predetermined number of bills have been deposited in the receiving aw, then the camv t rotating with said axle engages against the projection 23, thus swinging the arm i rotating the vertical shaft i swinging the arm t at itsupper end, thereby swinging the upper scissor part t and closing the scissors. This snips off the strip of paper at a point sufliciently high to leave the strip of proper length to be wrapped and fastened around the bundle of bills. Immediately the scissors thus operate theyagain open and the paper passes on downbetween them for the next operation.

.In order to properly guide the paper and keep it between the scissor parts, I have shown a. guide T in Fig. 16, secured immediatelyabove the scissors and centrally slotted from the point 2 5 to its outer extremity, the strip of paper 8 passing through said slot and between .the scissor parts.

As the axle N startsto rotate not only do the scissors snip off the paper as explained, but the parts come into action which" wrap the severed strip of paper around the bunch of bills. One of these parts is the fly U, which is pivoted at u on the outer end of the bar 0, said fly having a spring u tending to rotate it in the direction of the hands of a watch, the sprlng acting through a wire or flexlble connection at which is partly til it reaches a position in front of the bunch '0 of bills. During this motion of the fly it encounters the lower portion 8 of the paper strip 8' and carries it around fromthe vertical position shown in Fig. 10 to a position directly in front of the bunch of bills;

The upper extremity of the paper strip is likewise wrapped around the upper edge of the bunch c of bills, and this is accomplished by said paper strip coming in contact with the corner a of a guide U which guide is rigidly secured upon a bracket U*, which in turn is secured to the frame part of the machine, as shown in Fig. 2. As the axle N rotates to the right its tendency is to carry the paper strip with it, but said strip strikes the corner u and is thereby bent sharply around to the. left and as the rotation of axle N continues the strip is carroll in such location that theupper end of the severed paper strip will come in contact with the roll when the axle N rotates.

Referring to Fig. 1, U represents a glue vessel having a hinged cover a A glue roll U is pivoted to rotate at one side of the glue vessel in such way that the surface of the roll will'pass first into the glue vessel and then outward therefrom when'rotated. The glue roll U is kept in continual rotation by means of a pulley it connected by a belt u to a larger pulley u mounted upon the main feed shaft S. The glue roll is so located that the upper end of the paper strip when deflected by the cornera of the guide U will come in contact with the glue roll and receive a suflicient amount of glue to enable it to adhere to the other end of the paper strip. As the axle N rotates the fly U passes within the guide U its position during this rotation being substantially as shown at U atthe upper end of the bar 0,

Fig. 10. During this half revolution the bunch of bills with the paper strip wrapped and glued around it is carried beneath the guide U from the position a Fig. 10, to a dian'ietrically opposite position, and in the course of this half revolution the paper strip binding the bunch of bills passes directly beneath the printing roller U and receives an impression therefrom of whatever matter may be placed upon the roll. Springs U press the roll downwardly with a light tension so as to insure contact with the paper strip. I

It will be understood that the jaw space at the right-hand side of Fig. 10 will revolve around a half revolution to a position opposite the pneumatic cylinders for the purpose of receiving a new bunch of bills. During this,revolution the fly U which co operates with said jaw space, is acted upon by the point a of the before-mentionedfinger U, thus causing the fly to be pressed backward and assume its proper original position. The point 21. of the finger U will also become inserted behind the bunch of bills in the jaw space at the right,'ancl cause the same to be thrown outwardly onto the operators table or a receptacle placed there for the purpose.

The purpose of the regulating mechanism about to be explained is to cause the axle N to come into operation at the end of a given number of actions of the pneumatic cylinders. For example, at the end of two hundred single reciprocations of the cylinders, the axle N may be brought into rotation to cause the binding and stamping of a bundle of one hundred bills on either side of the machine.

Figs. 1,2, 12, 12, 13 and 14: show the regulatin mechanism. The principal member. of tlns mechanism is a ratchet wheel V having teeth closely spaced, and provided with one or more pawls. I have shown three pawls, c, c 41 which are differently spaced with respect to the length ofthe teeth so that extreme minuteness may be obtained in the operation of the pawls. These three pawls are mounted directly upon an arm o, and the arm o is 'loosely mounted on the axle V, while the ratchet V is keyed to a short. sleeve V shown in dotted lines in Fig. 13. There is a second sleeve V which rotates loosely on axle V, but is inde endent the toe f of the extension F of the reciprocating slide F, said toe'being better shown in Fig; 7. The reciprocation of the slide F causes a right reciprocation of the toe f and this in turn causes the reciprocation of the slide 11 although the reciprocation of said slide can be regulated in extent by means of a stop arm 4;. A spring '0 Fig. 1', is constantly pulling toward the right upon the arm '0 so as to give to said arm a return movement when the same has been moved toward the left by the toe f. The extent of this return movement is regulated by the position of the stop arm 1). Mani-' festly the adjustment of said stop arm in different positions will limit the extent of return movement of arm 'v,and consequently the extent of its oscillation. Moreover the greater the oscillation of arm 2;, the greaterwill be the movement of ratchet V at each reciprocation of the slide F. In this way the operator can control a number of reciprocations of slide F that must occur before the ratchet wheel has made a complete revolution. In turn this control gives him the powerof controlling the-number of bills which must be comprised in each bundle. To facilitate this regulation an exterior regulating armior pointer e is employed, it being located in-front of the face plate A and secured at the: forward end of the shaft V. The stop arm o", as seen in Fig. 13, is

secured at the rear end of the shaft V so,

that the movement of the pointer o controls the position of the stoparm. A proper scale o laid out on the face plate is a convenient means of enabling the operator to at will adjust the machine for making bundles of any desired number of bills. At

the end of a complete revolution of the ratchet V the mechanism is caused to produce in the shaft N a half revolution.

Referring to Fig. 13, 0 represents a disk shaped cam secured to one side of the ratchet V, and '0 represents a similar but oppositelyarranged'cam opposed thereto, and a sufficient distance therefrom to accommodate a coil spring wt. On the outside face of the disk cam o is a gear wheel o, and this and the cam v are secured fast upon the sleeve V The inner end of spring v is secured to the cam o which turns wit-h the ratchet, while the outer end of said spring is secured\to the cam o As the ratchet is gradually rotated, it serves ,to wind up the springe roducing a tension therein, the tendency of which is to revolve the cam o .in the same direction. The cam 42 however, is normally kept from rotating by means of a pivoted latch 4;" located at ,the end of an arm 41 pivoted at 01. The shape of the cam v is .clearly shown in Fig. 12

and theicam' v partly shown in dotted "lines willi be seen to be of the same shape but faced in the opposite direction. The latch 30 as seen in said figure, comes between the stop surfaces 'of the cams o '0 and for this purpose the latch is broadened above the point where it is pivoted as shown by the curved line 11 its end 12" thereby having sufficient breadth to engage in the stop sur faceso-f both said cams. As seen in Fig. 12,

as spring 2) is employed, it constantly tends to push the latch inward. As the ratchet V slowly rotates, the cam '0 rotates with'it, and owingto the eccentric shape of its outer edge, said cam little by little pushes outward upon the latch 11", causing it to move to the i 'left in Figs. 12 and 12.

' plete revolution until it is stopped by coming in contact with the latch o", and the latch vat the same time having moved back to its positionof Fig. 12% It will be understood that the revolution of e is a lefthand revolution viewed from Fig. 12.

- Of course when the cam o makes a complete revolution as above described, the

sleeve V revolves with it. At the left end of sleeve V Fig. 13, is a sprocket W which is connected to one of the axles N for causing it to make a half revolution.

w represents a sprocket chain engaging sprocket W and passing upwardly around the sprocket wheel N already referred to.

In order to drive the axle N at the other or right-hand end of the machine, I have provided an auxiliary shaft w mounted on an independent bracket Q03, Figs. 12 and 13, and on the auxiliary shaft w is a gear w which engages with the gear-p The gear w therefore turns with the sleeve'V whenever the latter isactuated. Fast also upon the shaft to is a sprocket wheel w, and this\ sprocket wheel connects by the sprocket fchain' N already mentioned, its motion being conveyed through another auxiliary shaft 11, and a third sprocket chain N 4 so as to drive the axle N' at the right-hand end of the machine. i g

The rotation of verticalshaft S can now be explained. Near its foot it is provided with a gear X having teeth at forty-five degrees, like a screw, and this gear X engages with a similar gear X, shown dotted in Fig. 2, said gear X being on a short shaft at the other end of which is an ordinary gear X I Figs. 2 and 12, which gear X engages with 'a similar gear X directly behind it in Fig.

2 and shown in Fig. l2'asmo-unted on the same sleeve'V that carries the ratchet V In thisa'way the glue roll and the paper feed roll .9 are made to rotate continuously as long as the ratchet is rotated.

What I claim as new and desire to secure by Letters Patent is:

1. In a machine of the kind described, the combination of a support for a column of uncounted bills or like objects, means for receiving and gathering objects removed from said column, mechanism including a vibratory suction device, for successively removing objects from said column and transferring them directly to said receiving means, and a regulating mechanism acting at predetermined intervals for segregating the objects gathered in said receiving mean-s.

2. In a machine of the kind described, the combination of a support for a column of uncounted bills or like objects, said support having mechanism for feeding it upward to compensate for the objects removed from the column thereon, means for receiving and gathering objects removed from said column, mechanism including a vibratory suc tion device, for successively removing objects from said column and transferring.

them directly to said receiving means, and a regulating mechanism acting at predetermined intervals for segregating the objects gathered in said receiving means.

3. In a machine of the kind described, th combination of a support for a column of uncounted bills or like objects, means for receiving and gathering objects removed from said column, mechanism including a vibratory suction cylinder, for successively removing objects from said column and transferring them directly to said receiving means, mechanism for rotating said suction cylinder, and a regulating mechanism acting at predetermined intervals for segregating the objects gathered in said'receiving means.

4. In a machine of the kind described, the combination of a support for a columnof uncounted bills or like objects, means for receiving and gathering objects removed from said column, mechanism including a vibratory suction cylinder, for successively removing objects from said column and transferring them directly to said receiving means, mechanism for shifting and rotating said suction cylinder to give it a rolling mo tion, and a regulating mechanism actingat predetermined intervals for segregating theobjects gathered in said receivingmeans.

5. In a machine of the kind described, 'the combination of a support for a column uncounted bills or like objects, means for receiving and gathering objects removedfrom said column, mechanismincluding a vibratory suction device, for-successively removing objects from said column, and transferring them directly to said receiving means, and a regulating mechanism acting at predetermined intervals for segregating the objects gathered in said receiving means, said regulating mechanism including a ratchet and paWloperated from the said rei'n'oving and transferring apparatus.

6. In a machine of the kind described, the combination of a support for a column of uncounted bills or like objects, means for receiving and gathering objects removed from said column, said receiving and gathering means having a plurality of receiving portions and being revoluble for moving each receiving portion from receiving po sition to idle position, While the other portion movesto receiving position, mechanism including a suction device, for successively moves to receiving position, mechanisnrin-' eluding a suction device, for successively removing objects from said column and trans ferring them to said receiving means, and-a regulating mechanism acting at predeten mined intervals for revolving said receiving means, and so sgregatingthe objects gathered therein; together with a mechanism for Wrapping and fastening a strip of paper around the bills in said receiving means at the time the latter revolves. V

8. In a machine 'of the kind described, the combination of a support for a column of uncounted bills or like objects, means for receiving and gathering objects removed from said column, said receiving and gathering means having a plurality of receiving portions and being revoluble for moving each receiving portion from receiving position to idle? position, While the other portion moves to receiving position. mechanism including a suction device, for successively removing objects from said column and transferring them to said receiving means, and a regulating mechanism acting at predetermined intervals for revolving said receiving means, and so segregating the objects gathered therein; together With a mechanism for Wrapping and fastening a strip of paper around the bills in said receiving device at the time the latter revolves, and a printing roll for impressing printed matter'on said paper strip during the revolution of said receiving means.

9. In a machine of the kind described, the

combination'of a support for a column of uncountedbills or like objects, two. separate receiving and bunching devices arranged with the said column between them, a mechanism comprising a pneumatic device shift-' able to and fro between said receiving and bunching devices, for successively removing the bills from the top of said column and transferring them alternately to one and the other of said receiving and bunching devices.

10. In a machine of the kind described, the

combination of a support for a column of.-

uncounted bills or like objects, two separate receiving and bunching devices arranged with the said column between them, a mechanism comprising a pair of rotating pneumatic cylinders shiftable to and fro between saidreceiving and bunching devices, for successively removing the bills from the top of said columnand transferring them alternately to one and the other of said receiving and bunching devices, one cylinder cooperating with each of said receiving devices. I

11. Ina machine of the kind described, the combination of a support for a column of uncounted bills or like objects, vibratory mechanism for successively taking the bills from the top of said column and transfer-, ring them, directly to-thereceiving device, and mechanism including receivin means for receiving and bunching said iills together with band wrapping devices and a regulator which brings about the operation of the receiving means and the band wrapping devices at predetermined intervals.

12. In a'machine of the kind described, the combination of a support for a column of uncountedbills or like objects, mechanism for successively taking the bills from the top of said column and transferring them to the receiving meansv in substantially upright pos t on, and mechanlsm including recelvln means for receiving andbunching said bil s together with band wrapping devices and a regulator which brings about the operation of thereceiving means and band wrapping devices at predetermined intervals, said .i'eceiving means comprising a pair of jaws inclosing a receiving jaw-space adapted to receive bills in substantially upright position and hold them there. 13. In. a machine of the kind described, the combination of a-support for a column of uncountedbills or like objects, mechas" nism for successively taking the bills from the top of said column and transferring them to the receivingmeans in substantially upright position, and'mechanism including receiving means for receiving and bunching said bills together with band wrapping devices and a regulator which brings about the operation of the receiving means and band'wrapping devices at redetermined intervals, said receiving means comprising a adapted to receive bills in substantially upright position and hold them there in curved condition, substantially as described.

14. In a machine of the kind described, the combination of a support for a column of uncounted bills or like objects, mechanism including a suction" cylinder for successively taking the bills from the top of said column and transferring them to the receiving means, said cylinder moving laterally without rotation during the deposit of the object in the receiving means, and mechanism including receiving means for receiving directly fromsaid suction cylinder and there bunching said bills together, and a regulator which .brings about the operation of the receiving means at predetermined intervals.

15. In a machine of the kind described, the combination of asupport for a column of uncounted bills or like objects, mechanism for successively taking the bills from them to receiving means, and mechanism includin a luralit of receivin meansv e p y. s

for receiving and b unching said bills, said receiving means disposed around an axle which is rotatable for bringing one receiving means into active position while another passes from active to idle position, and a regulator which brings about the rotation of said axle at predetermined intervals.

16. In a machine of the'kind described, the combination of a support for a column of uncounted bills or like objects, mechanism for successively taking the bills from the top of said column and transferring them to receiving m'eans,-and mechanism including a plurality of receiving means for receiving and bunching said bills, said receiving means disposed around an axle which is rotatable for bringing one receiving means into active position while another passes from active to idle position, paper strip feeding and severing devices, means for automatically wrapping a severed paper strip around said bunch upon each operation of said axle, and a regulator which brings about the rotation of said axle at predetermined intervals.

17. In a machine of the kind described, the combination of a support for a column of UIICOIIIItQdFblllS OI' like objects, mechanism for successively taking the bills from the top of said column and transferring them to receiving means, and mechanism including a plurality of receiving means forreceiving and bunching said bills, said receivingmeans disposed around an axle which is rotatable for bringing one receiving means into ac- ,tive position while another passes from active to idle'position, paper strip feeding and severing devices, means for automatically 

